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I'm trying to find a more elegant way to create a map that group field values by field names using Java 8 than the following:

@Test
public void groupFieldValuesByFieldNames() {
    Person lawrence = aPerson().withFirstName("Lawrence").withLastName("Warren").born();
    Person gracie = aPerson().withFirstName("Gracie").withLastName("Ness").born();

    Map<String, List<String>> valuesByFieldNames = new HashMap<>();
    Stream.of(lawrence, gracie).forEach(person -> {
        valuesByFieldNames.computeIfAbsent("lastName", s -> new ArrayList<>()).add(person.getLastName());
        valuesByFieldNames.computeIfAbsent("firstName", s -> new ArrayList<>()).add(person.getFirstName());
    });

    assertThat(valuesByFieldNames, hasEntry("lastName", asList("Warren", "Ness")));
    assertThat(valuesByFieldNames, hasEntry("firstName", asList("Lawrence", "Gracie")));
}
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  • 1
    If you feel obligated to do something like this, I'd start with Map<String, Function<Person, String>> that mapped each field name to a getter for that field. – Louis Wasserman Apr 29 '16 at 23:05
2

Try this.

Map<String, List<String>> valuesByFieldNames = Stream.of(lawrence, gracie)
    .flatMap(p -> Stream.of(new String[]{"firstName", p.getFirstName()},
                            new String[]{"lastName", p.getLastName()}))
    .collect(Collectors.groupingBy(a -> a[0],
             Collectors.mapping(a -> a[1], Collectors.toList())));

Or more generally

Map<String, List<String>> valuesByFieldNames = Stream.of(lawrence, gracie)
    .flatMap(p -> Stream.of(new AbstractMap.SimpleEntry<>("firstName", p.getFirstName()),
                            new AbstractMap.SimpleEntry<>("lastName", p.getLastName())))
    .collect(Collectors.groupingBy(e -> e.getKey(),
             Collectors.mapping(e -> e.getValue(), Collectors.toList())));
2

You can have the following, that will work correctly in parallel:

Map<String, List<String>> valuesByFieldNames = 
    Stream.of(lawrence, gracie).collect(HashMap::new, (m, p) -> {
        m.computeIfAbsent("lastName", s -> new ArrayList<>()).add(p.getLastName());
        m.computeIfAbsent("firstName", s -> new ArrayList<>()).add(p.getFirstName());
    }, (m1, m2) -> m2.forEach((k, v) -> m1.merge(k, v, (l1, l2) -> { l1.addAll(l2); return l1; })));

What this does is that it collect each person into a mutable HashMap. The accumulator computes the last name and the first name by invoking computeIfAbsent, just like your initial code. The combiner merges two maps together by iterating over the entries of the second map and merging each key into the first map; in case of conflict, the value is the addition of the two lists.

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